张力(地质)
系泊
链条(单位)
海水
海洋工程
结构工程
计算
计算机科学
环境科学
材料科学
工程类
复合材料
地质学
极限抗拉强度
物理
算法
海洋学
天文
作者
Jonathan Fernández,Walther Storesund,Jesús Navas
标识
DOI:10.1115/omae2014-23491
摘要
With more than 50.000 tons in service to date, the Oil&Gas Industry has the need to understand the tension fatigue performance of grade R5 chains in straight tension, and corroborate the validity of the existing design methods. The chain fatigue design curves in API and DNV are based on fatigue tests obtained in the nineties and early two thousands. However the tests were performed on lower grades such as ORQ, R3 and R4, and small chains, 76 mm diameter being the largest studless chain tested. The industry has moved towards the use of large studless chains, especially in permanent units, where chain diameters above 150 mm are not unusual. This paper gathers information from a full scale fatigue test program on grade R4 and R5 studless chains, performed in seawater and with diameters between 70 mm and 171 mm. The chains being tested are actual production chains supplied for different drilling units and large permanently moored production floating units. The paper analyses the data and determines tension-tension fatigue curves based on API and DNV methods for computation of cumulative fatigue damage, regardless of other damaging mechanisms. Improved fatigue capacity is obtained with respect to the above recommended design methods.
科研通智能强力驱动
Strongly Powered by AbleSci AI